机译:一种评估炭化生长的程序,并确定粘合关节的疲劳寿命和针对主要机身结构的补丁修复
ARC Training Centre for Automated Manufacture of Advanced Composites School of Mechanical and Manufacturing Engineering UNSW Sydney Kensington Australia;
Aerospace Division Defence Science and Technology (DST) Group Melbourne Australia;
ARC Training Centre for Automated Manufacture of Advanced Composites School of Mechanical and Manufacturing Engineering UNSW Sydney Kensington Australia;
Aerospace Division Defence Science and Technology (DST) Group Melbourne Australia Advanced Composite Structures Australia Pty Ltd Melbourne Australia;
ARC Training Centre for Automated Manufacture of Advanced Composites School of Mechanical and Manufacturing Engineering UNSW Sydney Kensington Australia;
ARC Training Centre for Automated Manufacture of Advanced Composites School of Mechanical and Manufacturing Engineering UNSW Sydney Kensington Australia;
Bonded patch repair; Disbond; Slow damage growth; Adhesive failure; VCCT;
机译:用复合贴片修复粘合剂脱粘和热残余应力对裂纹2024-T3铝板疲劳寿命的影响
机译:在全幅剥离下用粘结的复合补片修复渐进边缘开裂的铝板
机译:粘结对复合材料修补裂缝的脱粘对应力强度因子变化的影响分析
机译:禁止增长评估绑定关节和贴片修复原发性机身结构
机译:预测在使用复合粘结倍增剂修复的厚整块铝结构中传播的疲劳裂纹的形状。
机译:UNG2相关修复复合物修复U / G和DNA中的U / A主要通过增殖和生长停滞细胞中的短片修复进行
机译:粘结碳纤维增强聚合物修补修复钢结构:拉伸载荷下碳纤维增强聚合物-钢双搭接接头的实验与数值研究。